前沿 | 基于 AL-LDS-Ω 新耦合方法考虑变桨策略的串联风力涡轮机的风浪干扰

IF 2.6 4区 工程技术 Q3 ENERGY & FUELS Frontiers in Energy Research Pub Date : 2024-07-29 DOI:10.3389/fenrg.2024.1449454
Renwei Ji, Ming Kong, Ke Sun, Jianhua Zhang, Renqing Zhu, Minwei Yin, Yuquan Zhang, E. Fernandez-Rodriguez
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引用次数: 0

摘要

本文在大涡模拟框架下,结合致动器线(AL)、局部动态斯马戈林斯基(LDS)子网格尺度(SGS)和新一代Ωnew涡识别方法,建立了高保真、高效的风电机组尾流计算流体力学(CFD)数值方法(AL-LDS-Ωnew)。模型优势显著:1)在涡轮建模方面,采用 AL 模型替代传统的三维实体模型,避免了对叶片表面边界层的求解,提高了计算效率;2)在尾流模拟方面,采用 LDS SGS 模型建立湍流模型,减少了涡流耗散,进一步提高了涡轮尾流的精细度;3)在涡流识别方面,新一代Ω新涡流识别方法避免了以往涡流识别中阈值选择困难的问题,捕捉到的涡流结构更加精细。根据 NREL 5 兆瓦风力涡轮机的公开数据验证了模型的准确性,然后通过改变上游风力涡轮机(WT1)的变桨角度,扩展到模拟串联双转子涡轮机的尾流干扰。探讨了变桨策略下阵列尾流干扰与能量转换效率之间的影响机理,证明了 AL-LDS-Ω 新耦合方法在模拟复杂尾流干扰时的计算精度和效率。分析结果表明,变桨策略能有效抑制上游涡轮机(WT1)的唤醒效应,增加下游涡轮机(WT2)的功率输出,从而提高阵列场的整体输出功率。与无桨距状态(桨距角为 0)相比,桨距角为(2°)可最大限度地提高双转子阵列的整体能量转换效率:功率提高 0.29%,推力降低 5%。这种最佳状态降低了涡轮机的疲劳负荷,更有利于长期运行。研究结果虽然是初步的,但鼓励在风电场规划和运行中使用涡轮机变桨策略。
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Frontiers | Wake interference of tandem wind turbines considering pitch strategy based on the AL-LDS-Ωnew coupling method
This paper establishes a high-fidelity and efficient Computational Fluid Dynamics (CFD) numerical method (AL-LDS-Ωnew) for wind turbine wake by combining the actuator line (AL), the localized dynamic Smagorinsky (LDS) sub-grid scale (SGS), and the new generation Ωnew vortex identification method under the framework of large eddy simulation. The model advantages are encouraging: 1) In terms of turbine modeling, the AL model is adopted to replace the traditional three-dimensional solid model, which avoids solving the boundary layer on the blade surface and improves computational efficiency; 2) In terms of wake simulation, the LDS SGS model is used to model turbulence, reducing vortex dissipation and further improving the refinement of turbine wake; 3) In terms of vortex identification, the new generation Ωnew vortex identification method avoids the difficult threshold selection in previous vortex identification and captures more refined vortex structures. The accuracy of the model is validated against published data of a NREL 5 MW wind turbine, and then extended to simulate the wake interference of tandem twin-rotor turbines by changing the pitch angle of the upstream wind turbine (WT1). The influence mechanisms between array wake interference and energy conversion efficiency under the pitch strategy are explored, demonstrating the AL-LDS-Ωnew coupling method is computationally accurate and efficient for simulating the complex wake interference. From analyses, the pitch strategy can effectively suppress the wake effect of the upstream turbine (WT1) and increase the power output of the downstream turbine (WT2), thus improving the overall output power of the array farm. Compared with the non-pitch condition (0 pitch angle), a pitch angle of (2°) maximizes the global energy conversion efficiency of the twin-rotor array: power augmentation by 0.29%, and thrust reduction by 5%. This optimal state reduces the fatigue load of the turbine and is more conducive to long-term operation. The findings, whilst preliminary, encourage the use of turbine pitch strategies in the wind farm planning and operation.
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来源期刊
Frontiers in Energy Research
Frontiers in Energy Research Economics, Econometrics and Finance-Economics and Econometrics
CiteScore
3.90
自引率
11.80%
发文量
1727
审稿时长
12 weeks
期刊介绍: Frontiers in Energy Research makes use of the unique Frontiers platform for open-access publishing and research networking for scientists, which provides an equal opportunity to seek, share and create knowledge. The mission of Frontiers is to place publishing back in the hands of working scientists and to promote an interactive, fair, and efficient review process. Articles are peer-reviewed according to the Frontiers review guidelines, which evaluate manuscripts on objective editorial criteria
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